Small Animal Model of Human Immunity
Banuelos, Scott J.   
University of Massachusetts Medical School Worcester, Worcester, MA, United States

Translation of basic research to the field of clinical transplantation is difficult due to the lack of model systems that permit in vivo analysis of a human immune response without putting a patient at risk. The laboratories of Dr. Greiner (my sponsor) and Dr. Shultz (our collaborator) have developed an immunodeficient mouse that supports high levels of human lymphocyte engraftment (termed Hu-PBL-NOD-scid). We propose to establish and validate this model for the study of mechanisms of human immune function and allograft rejection. Our working hypothesis is that Hu-PBL-NOD-scid mice expressing human MHC class 1 and class II molecules will enhance the survival and function of engrafted MHC-matched human T cells. Data i.s been established in two key areas: 1) Genetic stocks of all required human MHC transgenic and murine MHC knockout mice have been assembled. 2) Human skin and islet allograft rejection in Hu-PBL-NOD-scid mice has been documented. Building on these Preliminary Data, the Specific Aims of this proposal are two-fold.
Specific Aim #1 is to investigate the mechanisms that underlie the engrafiment, expansion, and survival of human lymphocytes in NOD-scid mice. We propose to test three mechanisms that may act individually or in concert. We will test the hypotheses that expansion and survival of human lymphocytes: A) Results from human anti-mouse MHC class II reactivity; B) Is due to dysregulated homeostasis in the lymphocyte-deficient scid host; C) Requires expression of human MHC class I or class II in the murine hosts for survival.
Specific Aim #2 is to test the functional activity of human lymphocytes engrafted in rransgenic NOD-scid mice that express human MHC class I or class II molecules. We propose to validate our Hu-PBL-NOD-scid model as an in vivo model of a functional human immune system for the study allograft rejection. Human MHC transgenic NOD-scid mice will be used to donate allograft targets for engra.fted human lymphocytes. This will validate the functional expression of the human MHC by mouse APCs as a target alloantigen, and validate the ability of human MHC on mouse APCs to present antigen. Our long-term goal is to use the Hu-PBL-NOD-scid model to investigate the mechanisms of human allograft rejection and the modulation of human immune responses by tolerance induction protocols.